RU187338U1 - PANEL CONSTRUCTION HEAT-INSULATING - Google Patents

Abstract

This utility model relates to construction, namely, heat-insulating building panels, intended for use as building envelopes and load-bearing structures of quick-erected structures, the basis of the heat-insulating layer of which is made of airgel-based material. The objective of the claimed utility model is to increase the heat-insulating properties of sandwich panels used as enclosing and supporting parts of the construction of prefabricated structures and reducing their weight and dimensions. This problem is solved by using an airgel-based material as a heat-insulating layer in the panel, thereby, ceteris paribus, it becomes possible to reduce the thickness of the heat-insulating layer by at least two times and, as a result, the weight of the structure, in comparison with heat-insulating materials based on mineral wool, foam glass and polyfoam. The building heat-insulating panel includes two shells, the outer edges of which are castle elements, for connecting the same type of panels to each other, from metal and / or polymer composite material, interconnected by at least one spacer made of metal and / or polymer composite material, forming an internal volume in which heat-insulating layers of airgel-based material are placed, placed in a moisture barrier, while all panel elements are interconnected by means of adhesive composition. The number and thickness of thermal insulation layers are determined by calculation based on operating conditions and are at least one.

Description

This utility model relates to construction, namely to building heat-insulating panels, intended for use as building envelope structures of pre-fabricated structures, the basis of the heat-insulating layer of which is made by airgel-based material.

Sandwich panels are used in the construction of prefabricated structures. It is economically feasible to use structures made of sandwich panels in hard-to-reach areas where the temporary nature of a person's stay can be noted. The construction of long-term structures in these areas is not economically feasible due to the complexity of transporting building materials to the construction site, as well as the often lack of natural resources in the proposed area for the production of these materials.

Sandwich panels used in construction must have high thermal insulation properties with a minimum panel thickness, high strength and sound insulation, lightness, fire resistance.

The easier and more compact the sandwich panel will be, the easier it will be to deliver it to remote regions and complete its installation.

Known wall multilayer heat-insulating panel (patent RU 2372454 class E04F) comprising two surface layers, between which are placed heat-insulating layers assembled from foam glass blocks laid in layers in rows with ligation of joints, preferably in adjacent layers, while all the constituent structural elements of the panel are fastened among themselves by means of an adhesive composition. The surface layers are made of metal sheets. Middle heat-insulating layers, the number of which is not less than two, are located relative to each other so that at least one heat-insulating layer is offset from the other, preferably adjacent to it, by a distance of not less than the thickness of the block, but not more than 1/2 of the horizontal size one assembly block of foam glass. The resulting displacements of the end surfaces of the boundary blocks of the panel are mirrored with respect to each other and form a spike-groove type of lock, which facilitates the connection of the same type of panels to each other.

A well-known construction sandwich panel (patent RU 2280132 class Е04С 2/24) comprising two surface layers of metal and a central part composed of pieces of mineral wool constituting longitudinal strips, the longitudinal axis of the pieces are parallel to the longitudinal axis of the panel, and the orientation of the fibers in the pieces is perpendicular the plane of the surface layers, the ends of the pieces are offset longitudinally with respect to each other. Between the strips of pieces of mineral wool additionally introduced longitudinal strips of filling foam (polyurethane, etc.), and they are introduced sequentially between groups of strips of mineral wool, the number of strips of mineral wool in the group is from 1 to 4, while the extreme stripes of the panel are composed from pieces of mineral wool. The width of the strip of filling foam (polyurethane, etc.) is (1-4) of the width of the piece of mineral wool, and the length of the strips is the length of the panel.

A known sandwich panel (patent RU 2270902, class Е04С 2/26), including two surface layers of metal and a central part composed of pieces of mineral wool constituting longitudinal strips, the longitudinal axis of the pieces are parallel to the longitudinal axis of the panel, and the orientation of the fibers in the pieces is perpendicular the plane of the surface layers, the ends of the pieces are offset longitudinally with respect to each other. Between the strips of pieces of mineral wool additionally introduced strips of pieces of expanded polystyrene, the longitudinal axis of which is parallel to the longitudinal axis of the panel. The extreme stripes of the panel are composed of pieces of mineral wool, and the width of a piece of polystyrene foam is 1.25 the width of a piece of mineral wool, the length of a piece is 1-3 the length of a piece of mineral wool. These pieces are offset longitudinally with respect to each other, and imaginary lines intersecting the ends of adjacent pieces in the panel pass through points, one of which lies on the center axis of the panel, and the other is any point on the end of the piece lying in the extreme strip of the panel, with the formation internal angle within 50 ° -130 °.

As can be seen from the above prior art, the main heat-insulating material of the sandwich panels is mineral wool, foam glass, polystyrene.

It is known that the thermal conductivity of mineral wool, used as thermal insulation, ranges from 0.036-0.040 W / (m⋅K), with a density of 25-125 kg / m ³ (GOST 21880-2011 - Mineral wool piercing mats, heat-insulating. Technical conditions )

The thermal conductivity of the foam glass used as thermal insulation is 0.065 W / (m⋅K), with a density of 80-200 kg / m ³ (GOST 33949-2016 - Thermal insulation foam glass products for buildings and structures. Technical conditions).

The thermal conductivity of the foam used as thermal insulation ranges from 0.036-0.041 W / (m⋅K), with a density of 10-35 kg / m ³ (GOST 15588-2014 - Polystyrene foam insulation boards. Technical conditions).

Airgel material is known, which is a class of materials formed by removing the movable interstitial phase of a solvent from the pores of a gel structure maintained in an open-pore polymer material at a temperature and pressure above the critical point of the solvent. Aerogels typically have low bulk densities (about 0.15 g / cm ³ or less, and mostly about 0.03-0.3 g / cm ³ ), very large surface areas (usually roughly 400 to 1,000 m ² / g and higher, and mainly approximately from 700 to 1000 m ² / g, high porosity (about 95% and higher, and mainly approximately higher than 97%), and a relatively large pore volume (approximately higher than 3.8 ml / g, and mainly about 3 , 9 ml / g and above.) The combination of these properties in an amorphous structure allows to obtain the lowest values of the coefficient of thermal conductivity (from 9 to 16 mW / (m⋅K) at a temperature of 37 ° C and at a pressure of 1 atmosphere) for any coherent solid material (information from patent RU 2310702 D04H 13/00).

Among other things, materials are based on fire-retardant airgel.

Also known is an airgel-based material that is superinsulating at atmospheric pressure and which can be used for thermal insulation of buildings whose thermal conductivity ranges from 0.0159-0.017 W / (m⋅K), with a density of 110-210 kg / m ³ (patent RU 2569112).

It is known that the thickness of thermal insulation depends on the coefficient of thermal conductivity of the material, thereby, ceteris paribus, the thickness of the thermal insulation layer is the smaller, the lower the coefficient of thermal conductivity. In this regard, we can conclude that the thickness of the heat-insulating layer of the building heat-insulating panel using heat-insulating material based on airgel will be at least two times less than that of sandwich panels with heat-insulating material based on mineral wool, foam glass, foam, etc.

The objective of the claimed utility model is to increase the insulating properties of sandwich panels used as enclosing and supporting parts of the construction of prefabricated structures and to reduce their weight and dimensions.

This problem is solved in the construction of a heat-insulating construction panel, including two shells, the outer edges of which are locking elements, for connecting the same type of panels to each other, from metal and / or polymer composite material, interconnected by at least one metal and / or polymer spacer composite material, forming an internal volume in which heat-insulating layers of airgel-based material are placed, placed in a moisture-proof shell, while all elements Aneli interconnected by means of the adhesive composition.

The number and thickness of the insulating layers are determined by calculation based on operating conditions and are at least one.

The design of the building thermal insulation panel is illustrated by drawings.

In FIG. 1 shows the design of a building thermal insulation panel with a single layer of thermal insulation of an airgel-based material.

In FIG. 2 shows a perspective view in section of a building heat-insulating panel with a single layer of thermal insulation of an airgel-based material.

The building heat-insulating panel consists of two shells 1 and 2 of metal and / or polymer composite material, interconnected by at least one spacer 3 of metal and / or polymer composite material, forming an internal space, inside of which heat-insulating layers of airgel-based material are placed 5, placed in a moisture barrier 4. All elements are interconnected by means of an adhesive composition. Shells 1 and 2 have standard Z-Lock elements for sandwich panels, for connecting panels of the same type to each other.

If it is necessary to increase the layers of heat-insulating material based on airgel, it is enough to change the width of the spacer 3, while the design of the shells 1 and 2 does not change, as a result of this, unification of the panel structure and quick readjustment of equipment in the production of various types of building heat-insulating panels are achieved.

Claims (2)

1. Heat-insulating building panel, including two shells, the outer edges of which are locking elements, for connecting the same type of panels to each other, from metal and / or polymer composite material, interconnected by at least one spacer made of metal and / or polymer composite material, forming an internal volume in which heat-insulating layers of airgel-based material are placed, placed in a moisture-proof shell, while all panel elements are interconnected in the middle Twomey adhesive composition. 2. The heat-insulating building panel according to claim 1, characterized in that the number and thickness of the heat-insulating layers are determined by calculation based on operating conditions and are at least one.

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